lib/blkid/probe.h - platform/external/e2fsprogs_custom - Gitiles

 /*
  * probe.h - constants and on-disk structures for extracting device data
  *
  * Copyright (C) 1999 by Andries Brouwer
  * Copyright (C) 1999, 2000, 2003 by Theodore Ts'o
  * Copyright (C) 2001 by Andreas Dilger
  *
  * %Begin-Header%
  * This file may be redistributed under the terms of the
  * GNU Lesser General Public License.
  * %End-Header%
  */

 #ifndef _BLKID_PROBE_H
 #define _BLKID_PROBE_H

 #include <blkid/blkid_types.h>

 struct blkid_magic;

 typedef int (*blkid_probe_t)(int fd, blkid_cache cache, blkid_dev dev,
 			     struct blkid_magic *id, unsigned char *buf);

 struct blkid_magic {
 	const char	*bim_type;	/* type name for this magic */
 	long		bim_kboff;	/* kilobyte offset of superblock */
 	unsigned	bim_sboff;	/* byte offset within superblock */
 	unsigned	bim_len;	/* length of magic */
 	const char	*bim_magic;	/* magic string */
 	blkid_probe_t	bim_probe;	/* probe function */
 };

 /*
  * Structures for each of the content types we want to extract information
  * from.  We do not necessarily need the magic field here, because we have
  * already identified the content type before we get this far.  It may still
  * be useful if there are probe functions which handle multiple content types.
  */
 struct ext2_super_block {
 	__u32		s_inodes_count;
 	__u32		s_blocks_count;
 	__u32		s_r_blocks_count;
 	__u32		s_free_blocks_count;
 	__u32		s_free_inodes_count;
 	__u32		s_first_data_block;
 	__u32		s_log_block_size;
 	__u32		s_dummy3[7];
 	unsigned char	s_magic[2];
 	__u16		s_state;
 	__u32		s_dummy5[8];
 	__u32		s_feature_compat;
 	__u32		s_feature_incompat;
 	__u32		s_feature_ro_compat;
 	unsigned char   s_uuid[16];
 	char	   s_volume_name[16];
 };
 #define EXT3_FEATURE_COMPAT_HAS_JOURNAL		0x00000004
 #define EXT3_FEATURE_INCOMPAT_RECOVER		0x00000004
 #define EXT3_FEATURE_INCOMPAT_JOURNAL_DEV	0x00000008

 struct xfs_super_block {
 	unsigned char	xs_magic[4];
 	__u32		xs_blocksize;
 	__u64		xs_dblocks;
 	__u64		xs_rblocks;
 	__u32		xs_dummy1[2];
 	unsigned char	xs_uuid[16];
 	__u32		xs_dummy2[15];
 	char		xs_fname[12];
 	__u32		xs_dummy3[2];
 	__u64		xs_icount;
 	__u64		xs_ifree;
 	__u64		xs_fdblocks;
 };

 struct reiserfs_super_block {
 	__u32		rs_blocks_count;
 	__u32		rs_free_blocks;
 	__u32		rs_root_block;
 	__u32		rs_journal_block;
 	__u32		rs_journal_dev;
 	__u32		rs_orig_journal_size;
 	__u32		rs_dummy2[5];
 	__u16		rs_blocksize;
 	__u16		rs_dummy3[3];
 	unsigned char	rs_magic[12];
 	__u32		rs_dummy4[5];
 	unsigned char	rs_uuid[16];
 	char		rs_label[16];
 };

 struct reiser4_super_block {
 	unsigned char	rs4_magic[16];
 	__u16		rs4_dummy[2];
 	unsigned char	rs4_uuid[16];
 	unsigned char	rs4_label[16];
 	__u64		rs4_dummy2;
 };

 struct jfs_super_block {
 	unsigned char	js_magic[4];
 	__u32		js_version;
 	__u64		js_size;
 	__u32		js_bsize;
 	__u32		js_dummy1;
 	__u32		js_pbsize;
 	__u32		js_dummy2[27];
 	unsigned char	js_uuid[16];
 	unsigned char	js_label[16];
 	unsigned char	js_loguuid[16];
 };

 struct romfs_super_block {
 	unsigned char	ros_magic[8];
 	__u32		ros_dummy1[2];
 	unsigned char	ros_volume[16];
 };

 struct cramfs_super_block {
 	__u8		magic[4];
 	__u32		size;
 	__u32		flags;
 	__u32		future;
 	__u8		signature[16];
 	struct cramfs_info {
 		__u32		crc;
 		__u32		edition;
 		__u32		blocks;
 		__u32		files;
 	} info;
 	__u8		name[16];
 };

 struct swap_id_block {
 /*	unsigned char	sws_boot[1024]; */
 	__u32		sws_version;
 	__u32		sws_lastpage;
 	__u32		sws_nrbad;
 	unsigned char	sws_uuid[16];
 	char		sws_volume[16];
 	unsigned char	sws_pad[117];
 	__u32		sws_badpg;
 };

 /* Yucky misaligned values */
 struct vfat_super_block {
 /* 00*/	unsigned char	vs_ignored[3];
 /* 03*/	unsigned char	vs_sysid[8];
 /* 0b*/	unsigned char	vs_sector_size[2];
 /* 0d*/	__u8		vs_cluster_size;
 /* 0e*/	__u16		vs_reserved;
 /* 10*/	__u8		vs_fats;
 /* 11*/	unsigned char	vs_dir_entries[2];
 /* 13*/	unsigned char	vs_sectors[2];
 /* 15*/	unsigned char	vs_media;
 /* 16*/	__u16		vs_fat_length;
 /* 18*/	__u16		vs_secs_track;
 /* 1a*/	__u16		vs_heads;
 /* 1c*/	__u32		vs_hidden;
 /* 20*/	__u32		vs_total_sect;
 /* 24*/	__u32		vs_fat32_length;
 /* 28*/	__u16		vs_flags;
 /* 2a*/	__u8		vs_version[2];
 /* 2c*/	__u32		vs_root_cluster;
 /* 30*/	__u16		vs_insfo_sector;
 /* 32*/	__u16		vs_backup_boot;
 /* 34*/	__u16		vs_reserved2[6];
 /* 40*/	unsigned char	vs_unknown[3];
 /* 43*/	unsigned char	vs_serno[4];
 /* 47*/	char		vs_label[11];
 /* 52*/	unsigned char   vs_magic[8];
 /* 5a*/	unsigned char	vs_dummy2[164];
 /*1fe*/	unsigned char	vs_pmagic[2];
 };

 /* Yucky misaligned values */
 struct msdos_super_block {
 /* 00*/	unsigned char	ms_ignored[3];
 /* 03*/	unsigned char	ms_sysid[8];
 /* 0b*/	unsigned char	ms_sector_size[2];
 /* 0d*/	__u8		ms_cluster_size;
 /* 0e*/	__u16		ms_reserved;
 /* 10*/	__u8		ms_fats;
 /* 11*/	unsigned char	ms_dir_entries[2];
 /* 13*/	unsigned char	ms_sectors[2];
 /* 15*/	unsigned char	ms_media;
 /* 16*/	__u16		ms_fat_length;
 /* 18*/	__u16		ms_secs_track;
 /* 1a*/	__u16		ms_heads;
 /* 1c*/	__u32		ms_hidden;
 /* 20*/	__u32		ms_total_sect;
 /* 24*/	unsigned char	ms_unknown[3];
 /* 27*/	unsigned char	ms_serno[4];
 /* 2b*/	char		ms_label[11];
 /* 36*/	unsigned char   ms_magic[8];
 /* 3d*/	unsigned char	ms_dummy2[192];
 /*1fe*/	unsigned char	ms_pmagic[2];
 };

 struct vfat_dir_entry {
 	__u8	name[11];
 	__u8	attr;
 	__u16	time_creat;
 	__u16	date_creat;
 	__u16	time_acc;
 	__u16	date_acc;
 	__u16	cluster_high;
 	__u16	time_write;
 	__u16	date_write;
 	__u16	cluster_low;
 	__u32	size;
 };

 /* maximum number of clusters */
 #define FAT12_MAX 0xFF4
 #define FAT16_MAX 0xFFF4
 #define FAT32_MAX 0x0FFFFFF6

 struct minix_super_block {
 	__u16		ms_ninodes;
 	__u16		ms_nzones;
 	__u16		ms_imap_blocks;
 	__u16		ms_zmap_blocks;
 	__u16		ms_firstdatazone;
 	__u16		ms_log_zone_size;
 	__u32		ms_max_size;
 	unsigned char	ms_magic[2];
 	__u16		ms_state;
 	__u32		ms_zones;
 };

 struct mdp_superblock_s {
 	__u32 md_magic;
 	__u32 major_version;
 	__u32 minor_version;
 	__u32 patch_version;
 	__u32 gvalid_words;
 	__u32 set_uuid0;
 	__u32 ctime;
 	__u32 level;
 	__u32 size;
 	__u32 nr_disks;
 	__u32 raid_disks;
 	__u32 md_minor;
 	__u32 not_persistent;
 	__u32 set_uuid1;
 	__u32 set_uuid2;
 	__u32 set_uuid3;
 };

 struct hfs_super_block {
 	char	h_magic[2];
 	char	h_dummy[18];
 	__u32	h_blksize;
 };

 struct ocfs_volume_header {
 	unsigned char	minor_version[4];
 	unsigned char	major_version[4];
 	unsigned char	signature[128];
 	char		mount[128];
 	unsigned char   mount_len[2];
 };

 struct ocfs_volume_label {
 	unsigned char	disk_lock[48];
 	char		label[64];
 	unsigned char	label_len[2];
 	unsigned char  vol_id[16];
 	unsigned char  vol_id_len[2];
 };

 #define ocfsmajor(o) ((__u32)o.major_version[0] \
                    + (((__u32) o.major_version[1]) << 8) \
                    + (((__u32) o.major_version[2]) << 16) \
                    + (((__u32) o.major_version[3]) << 24))
 #define ocfslabellen(o)	((__u32)o.label_len[0] + (((__u32) o.label_len[1]) << 8))
 #define ocfsmountlen(o)	((__u32)o.mount_len[0] + (((__u32) o.mount_len[1])<<8))

 #define OCFS_MAGIC "OracleCFS"

 struct ocfs2_super_block {
 	unsigned char  signature[8];
 	unsigned char  s_dummy1[184];
 	unsigned char  s_dummy2[80];
 	char	       s_label[64];
 	unsigned char  s_uuid[16];
 };

 #define OCFS2_MIN_BLOCKSIZE             512
 #define OCFS2_MAX_BLOCKSIZE             4096

 #define OCFS2_SUPER_BLOCK_BLKNO         2

 #define OCFS2_SUPER_BLOCK_SIGNATURE     "OCFSV2"

 struct oracle_asm_disk_label {
 	char dummy[32];
 	char dl_tag[8];
 	char dl_id[24];
 };

 #define ORACLE_ASM_DISK_LABEL_MARKED    "ORCLDISK"
 #define ORACLE_ASM_DISK_LABEL_OFFSET    32

 struct iso_volume_descriptor {
 	unsigned char	vd_type;
 	unsigned char	vd_id[5];
 	unsigned char	vd_version;
 	unsigned char	flags;
 	unsigned char	system_id[32];
 	unsigned char	volume_id[32];
 	unsigned char	unused[8];
 	unsigned char	space_size[8];
 	unsigned char	escape_sequences[8];
 };

 /*
  * Byte swap functions
  */
 #ifdef __GNUC__
 #define _INLINE_ static __inline__
 #else				/* For Watcom C */
 #define _INLINE_ static inline
 #endif

 static __u16 blkid_swab16(__u16 val);
 static __u32 blkid_swab32(__u32 val);
 static __u64 blkid_swab64(__u64 val);

 #if ((defined __GNUC__) && \
      (defined(__i386__) || defined(__i486__) || defined(__i586__)))

 #define _BLKID_HAVE_ASM_BITOPS_

 _INLINE_ __u32 blkid_swab32(__u32 val)
 {
 #ifdef EXT2FS_REQUIRE_486
 	__asm__("bswap %0" : "=r" (val) : "0" (val));
 #else
 	__asm__("xchgb %b0,%h0\n\t"	/* swap lower bytes	*/
 		"rorl $16,%0\n\t"	/* swap words		*/
 		"xchgb %b0,%h0"		/* swap higher bytes	*/
 		:"=q" (val)
 		: "0" (val));
 #endif
 	return val;
 }

 _INLINE_ __u16 blkid_swab16(__u16 val)
 {
 	__asm__("xchgb %b0,%h0"		/* swap bytes		*/ \
 		: "=q" (val) \
 		:  "0" (val)); \
 		return val;
 }

 _INLINE_ __u64 blkid_swab64(__u64 val)
 {
 	return (blkid_swab32(val >> 32) |
 		(((__u64) blkid_swab32(val & 0xFFFFFFFFUL)) << 32));
 }
 #endif

 #if !defined(_BLKID_HAVE_ASM_BITOPS_)

 _INLINE_  __u16 blkid_swab16(__u16 val)
 {
 	return (val >> 8) | (val << 8);
 }

 _INLINE_ __u32 blkid_swab32(__u32 val)
 {
 	return ((val>>24) | ((val>>8)&0xFF00) |
 		((val<<8)&0xFF0000) | (val<<24));
 }

 _INLINE_ __u64 blkid_swab64(__u64 val)
 {
 	return (blkid_swab32(val >> 32) |
 		(((__u64) blkid_swab32(val & 0xFFFFFFFFUL)) << 32));
 }
 #endif


 #if  __BYTE_ORDER == __BIG_ENDIAN
 #define blkid_le16(x) blkid_swab16(x)
 #define blkid_le32(x) blkid_swab32(x)
 #define blkid_le64(x) blkid_swab64(x)
 #define blkid_be16(x) (x)
 #define blkid_be32(x) (x)
 #define blkid_be64(x) (x)
 #else
 #define blkid_le16(x) (x)
 #define blkid_le32(x) (x)
 #define blkid_le64(x) (x)
 #define blkid_be16(x) blkid_swab16(x)
 #define blkid_be32(x) blkid_swab32(x)
 #define blkid_be64(x) blkid_swab64(x)
 #endif

 #undef _INLINE_

 #endif /* _BLKID_PROBE_H */
	/*
	* probe.h - constants and on-disk structures for extracting device data
	*
	* Copyright (C) 1999 by Andries Brouwer
	* Copyright (C) 1999, 2000, 2003 by Theodore Ts'o
	* Copyright (C) 2001 by Andreas Dilger
	*
	* %Begin-Header%
	* This file may be redistributed under the terms of the
	* GNU Lesser General Public License.
	* %End-Header%
	*/

	#ifndef _BLKID_PROBE_H
	#define _BLKID_PROBE_H

	#include <blkid/blkid_types.h>

	struct blkid_magic;

	typedef int (*blkid_probe_t)(int fd, blkid_cache cache, blkid_dev dev,
	struct blkid_magic id, unsigned char buf);

	struct blkid_magic {
	const char bim_type; / type name for this magic */
	long bim_kboff; /* kilobyte offset of superblock */
	unsigned bim_sboff; /* byte offset within superblock */
	unsigned bim_len; /* length of magic */
	const char bim_magic; / magic string */
	blkid_probe_t bim_probe; /* probe function */
	};

	/*
	* Structures for each of the content types we want to extract information
	* from. We do not necessarily need the magic field here, because we have
	* already identified the content type before we get this far. It may still
	* be useful if there are probe functions which handle multiple content types.
	*/
	struct ext2_super_block {
	__u32 s_inodes_count;
	__u32 s_blocks_count;
	__u32 s_r_blocks_count;
	__u32 s_free_blocks_count;
	__u32 s_free_inodes_count;
	__u32 s_first_data_block;
	__u32 s_log_block_size;
	__u32 s_dummy3[7];
	unsigned char s_magic[2];
	__u16 s_state;
	__u32 s_dummy5[8];
	__u32 s_feature_compat;
	__u32 s_feature_incompat;
	__u32 s_feature_ro_compat;
	unsigned char s_uuid[16];
	char s_volume_name[16];
	};
	#define EXT3_FEATURE_COMPAT_HAS_JOURNAL 0x00000004
	#define EXT3_FEATURE_INCOMPAT_RECOVER 0x00000004
	#define EXT3_FEATURE_INCOMPAT_JOURNAL_DEV 0x00000008

	struct xfs_super_block {
	unsigned char xs_magic[4];
	__u32 xs_blocksize;
	__u64 xs_dblocks;
	__u64 xs_rblocks;
	__u32 xs_dummy1[2];
	unsigned char xs_uuid[16];
	__u32 xs_dummy2[15];
	char xs_fname[12];
	__u32 xs_dummy3[2];
	__u64 xs_icount;
	__u64 xs_ifree;
	__u64 xs_fdblocks;
	};

	struct reiserfs_super_block {
	__u32 rs_blocks_count;
	__u32 rs_free_blocks;
	__u32 rs_root_block;
	__u32 rs_journal_block;
	__u32 rs_journal_dev;
	__u32 rs_orig_journal_size;
	__u32 rs_dummy2[5];
	__u16 rs_blocksize;
	__u16 rs_dummy3[3];
	unsigned char rs_magic[12];
	__u32 rs_dummy4[5];
	unsigned char rs_uuid[16];
	char rs_label[16];
	};

	struct reiser4_super_block {
	unsigned char rs4_magic[16];
	__u16 rs4_dummy[2];
	unsigned char rs4_uuid[16];
	unsigned char rs4_label[16];
	__u64 rs4_dummy2;
	};

	struct jfs_super_block {
	unsigned char js_magic[4];
	__u32 js_version;
	__u64 js_size;
	__u32 js_bsize;
	__u32 js_dummy1;
	__u32 js_pbsize;
	__u32 js_dummy2[27];
	unsigned char js_uuid[16];
	unsigned char js_label[16];
	unsigned char js_loguuid[16];
	};

	struct romfs_super_block {
	unsigned char ros_magic[8];
	__u32 ros_dummy1[2];
	unsigned char ros_volume[16];
	};

	struct cramfs_super_block {
	__u8 magic[4];
	__u32 size;
	__u32 flags;
	__u32 future;
	__u8 signature[16];
	struct cramfs_info {
	__u32 crc;
	__u32 edition;
	__u32 blocks;
	__u32 files;
	} info;
	__u8 name[16];
	};

	struct swap_id_block {
	/* unsigned char sws_boot[1024]; */
	__u32 sws_version;
	__u32 sws_lastpage;
	__u32 sws_nrbad;
	unsigned char sws_uuid[16];
	char sws_volume[16];
	unsigned char sws_pad[117];
	__u32 sws_badpg;
	};

	/* Yucky misaligned values */
	struct vfat_super_block {
	/* 00*/ unsigned char vs_ignored[3];
	/* 03*/ unsigned char vs_sysid[8];
	/* 0b*/ unsigned char vs_sector_size[2];
	/* 0d*/ __u8 vs_cluster_size;
	/* 0e*/ __u16 vs_reserved;
	/* 10*/ __u8 vs_fats;
	/* 11*/ unsigned char vs_dir_entries[2];
	/* 13*/ unsigned char vs_sectors[2];
	/* 15*/ unsigned char vs_media;
	/* 16*/ __u16 vs_fat_length;
	/* 18*/ __u16 vs_secs_track;
	/* 1a*/ __u16 vs_heads;
	/* 1c*/ __u32 vs_hidden;
	/* 20*/ __u32 vs_total_sect;
	/* 24*/ __u32 vs_fat32_length;
	/* 28*/ __u16 vs_flags;
	/* 2a*/ __u8 vs_version[2];
	/* 2c*/ __u32 vs_root_cluster;
	/* 30*/ __u16 vs_insfo_sector;
	/* 32*/ __u16 vs_backup_boot;
	/* 34*/ __u16 vs_reserved2[6];
	/* 40*/ unsigned char vs_unknown[3];
	/* 43*/ unsigned char vs_serno[4];
	/* 47*/ char vs_label[11];
	/* 52*/ unsigned char vs_magic[8];
	/* 5a*/ unsigned char vs_dummy2[164];
	/1fe/ unsigned char vs_pmagic[2];
	};

	/* Yucky misaligned values */
	struct msdos_super_block {
	/* 00*/ unsigned char ms_ignored[3];
	/* 03*/ unsigned char ms_sysid[8];
	/* 0b*/ unsigned char ms_sector_size[2];
	/* 0d*/ __u8 ms_cluster_size;
	/* 0e*/ __u16 ms_reserved;
	/* 10*/ __u8 ms_fats;
	/* 11*/ unsigned char ms_dir_entries[2];
	/* 13*/ unsigned char ms_sectors[2];
	/* 15*/ unsigned char ms_media;
	/* 16*/ __u16 ms_fat_length;
	/* 18*/ __u16 ms_secs_track;
	/* 1a*/ __u16 ms_heads;
	/* 1c*/ __u32 ms_hidden;
	/* 20*/ __u32 ms_total_sect;
	/* 24*/ unsigned char ms_unknown[3];
	/* 27*/ unsigned char ms_serno[4];
	/* 2b*/ char ms_label[11];
	/* 36*/ unsigned char ms_magic[8];
	/* 3d*/ unsigned char ms_dummy2[192];
	/1fe/ unsigned char ms_pmagic[2];
	};

	struct vfat_dir_entry {
	__u8 name[11];
	__u8 attr;
	__u16 time_creat;
	__u16 date_creat;
	__u16 time_acc;
	__u16 date_acc;
	__u16 cluster_high;
	__u16 time_write;
	__u16 date_write;
	__u16 cluster_low;
	__u32 size;
	};

	/* maximum number of clusters */
	#define FAT12_MAX 0xFF4
	#define FAT16_MAX 0xFFF4
	#define FAT32_MAX 0x0FFFFFF6

	struct minix_super_block {
	__u16 ms_ninodes;
	__u16 ms_nzones;
	__u16 ms_imap_blocks;
	__u16 ms_zmap_blocks;
	__u16 ms_firstdatazone;
	__u16 ms_log_zone_size;
	__u32 ms_max_size;
	unsigned char ms_magic[2];
	__u16 ms_state;
	__u32 ms_zones;
	};

	struct mdp_superblock_s {
	__u32 md_magic;
	__u32 major_version;
	__u32 minor_version;
	__u32 patch_version;
	__u32 gvalid_words;
	__u32 set_uuid0;
	__u32 ctime;
	__u32 level;
	__u32 size;
	__u32 nr_disks;
	__u32 raid_disks;
	__u32 md_minor;
	__u32 not_persistent;
	__u32 set_uuid1;
	__u32 set_uuid2;
	__u32 set_uuid3;
	};

	struct hfs_super_block {
	char h_magic[2];
	char h_dummy[18];
	__u32 h_blksize;
	};

	struct ocfs_volume_header {
	unsigned char minor_version[4];
	unsigned char major_version[4];
	unsigned char signature[128];
	char mount[128];
	unsigned char mount_len[2];
	};

	struct ocfs_volume_label {
	unsigned char disk_lock[48];
	char label[64];
	unsigned char label_len[2];
	unsigned char vol_id[16];
	unsigned char vol_id_len[2];
	};

	#define ocfsmajor(o) ((__u32)o.major_version[0] \
	+ (((__u32) o.major_version[1]) << 8) \
	+ (((__u32) o.major_version[2]) << 16) \
	+ (((__u32) o.major_version[3]) << 24))
	#define ocfslabellen(o) ((__u32)o.label_len[0] + (((__u32) o.label_len[1]) << 8))
	#define ocfsmountlen(o) ((__u32)o.mount_len[0] + (((__u32) o.mount_len[1])<<8))

	#define OCFS_MAGIC "OracleCFS"

	struct ocfs2_super_block {
	unsigned char signature[8];
	unsigned char s_dummy1[184];
	unsigned char s_dummy2[80];
	char s_label[64];
	unsigned char s_uuid[16];
	};

	#define OCFS2_MIN_BLOCKSIZE 512
	#define OCFS2_MAX_BLOCKSIZE 4096

	#define OCFS2_SUPER_BLOCK_BLKNO 2

	#define OCFS2_SUPER_BLOCK_SIGNATURE "OCFSV2"

	struct oracle_asm_disk_label {
	char dummy[32];
	char dl_tag[8];
	char dl_id[24];
	};

	#define ORACLE_ASM_DISK_LABEL_MARKED "ORCLDISK"
	#define ORACLE_ASM_DISK_LABEL_OFFSET 32

	struct iso_volume_descriptor {
	unsigned char vd_type;
	unsigned char vd_id[5];
	unsigned char vd_version;
	unsigned char flags;
	unsigned char system_id[32];
	unsigned char volume_id[32];
	unsigned char unused[8];
	unsigned char space_size[8];
	unsigned char escape_sequences[8];
	};

	/*
	* Byte swap functions
	*/
	#ifdef __GNUC__
	#define _INLINE_ static __inline__
	#else /* For Watcom C */
	#define _INLINE_ static inline
	#endif

	static __u16 blkid_swab16(__u16 val);
	static __u32 blkid_swab32(__u32 val);
	static __u64 blkid_swab64(__u64 val);

	#if ((defined __GNUC__) && \
	(defined(__i386__) \|\| defined(__i486__) \|\| defined(__i586__)))

	#define _BLKID_HAVE_ASM_BITOPS_

	_INLINE_ __u32 blkid_swab32(__u32 val)
	{
	#ifdef EXT2FS_REQUIRE_486
	__asm__("bswap %0" : "=r" (val) : "0" (val));
	#else
	__asm__("xchgb %b0,%h0\n\t" /* swap lower bytes */
	"rorl $16,%0\n\t" /* swap words */
	"xchgb %b0,%h0" /* swap higher bytes */
	:"=q" (val)
	: "0" (val));
	#endif
	return val;
	}

	_INLINE_ __u16 blkid_swab16(__u16 val)
	{
	__asm__("xchgb %b0,%h0" /* swap bytes */ \
	: "=q" (val) \
	: "0" (val)); \
	return val;
	}

	_INLINE_ __u64 blkid_swab64(__u64 val)
	{
	return (blkid_swab32(val >> 32) \|
	(((__u64) blkid_swab32(val & 0xFFFFFFFFUL)) << 32));
	}
	#endif

	#if !defined(_BLKID_HAVE_ASM_BITOPS_)

	_INLINE_ __u16 blkid_swab16(__u16 val)
	{
	return (val >> 8) \| (val << 8);
	}

	_INLINE_ __u32 blkid_swab32(__u32 val)
	{
	return ((val>>24) \| ((val>>8)&0xFF00) \|
	((val<<8)&0xFF0000) \| (val<<24));
	}

	_INLINE_ __u64 blkid_swab64(__u64 val)
	{
	return (blkid_swab32(val >> 32) \|
	(((__u64) blkid_swab32(val & 0xFFFFFFFFUL)) << 32));
	}
	#endif



	#if __BYTE_ORDER == __BIG_ENDIAN
	#define blkid_le16(x) blkid_swab16(x)
	#define blkid_le32(x) blkid_swab32(x)
	#define blkid_le64(x) blkid_swab64(x)
	#define blkid_be16(x) (x)
	#define blkid_be32(x) (x)
	#define blkid_be64(x) (x)
	#else
	#define blkid_le16(x) (x)
	#define blkid_le32(x) (x)
	#define blkid_le64(x) (x)
	#define blkid_be16(x) blkid_swab16(x)
	#define blkid_be32(x) blkid_swab32(x)
	#define blkid_be64(x) blkid_swab64(x)
	#endif

	#undef _INLINE_

	#endif /* _BLKID_PROBE_H */